Power quality assessment of grid-connected PV system in compliance with the recent integration requirements

The generation and integration of photovoltaic power plants (PVPPs) into the utility grid have increased dramatically over the past two decades. In this sense, and to ensure a high quality of the PVPPs generated power as well as a contribution on the power system security and stability, some of the...

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Main Authors: Al-Shetwi A.Q., Hannan M.A., Jern K.P., Alkahtani A.A., Abas A.E.P.G.
Other Authors: 57004922700
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Published: MDPI AG 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-255832023-05-29T16:11:15Z Power quality assessment of grid-connected PV system in compliance with the recent integration requirements Al-Shetwi A.Q. Hannan M.A. Jern K.P. Alkahtani A.A. Abas A.E.P.G. 57004922700 7103014445 37461740800 55646765500 6506187323 The generation and integration of photovoltaic power plants (PVPPs) into the utility grid have increased dramatically over the past two decades. In this sense, and to ensure a high quality of the PVPPs generated power as well as a contribution on the power system security and stability, some of the new power quality requirements imposed by different grid codes and standards in order to regulate the installation of PVPPs and ensure the grid stability. This study aims to investigate the recent integration requirements including voltage sag, voltage flicker, harmonics, voltage unbalance, and frequency variation. Additionally, compliance controls and methods to fulfill these requirements are developed. In line with this, a large-scale three-phase grid-connected PVPP is designed. A modified inverter controller without the use of any extra device is designed to mitigate the sage incidence and achieve the low-voltage ride-through requirement. It can efficiently operate at normal conditions and once sag or faults are detected, it can change the mode of operation and inject a reactive current based on the sag depth. A dynamic voltage regulator and its controller are also designed to control the voltage flicker, fluctuation, and unbalance at the point of common coupling between the PVPP and the grid. The voltage and current harmonics are reduced below the specified limits using proper design and a RLC filter. The obtained results show that the proposed controller fulfilled the recent standard requirements in mitigating power quality (PQ) events. Thus, this study can increase the effort towards the development of smooth PVPP integration by optimizing the design, operation and control strategies towards high PQ and green electricity. � 2020 by the authors. Licensee MDPI, Basel, Switzerland. Final 2023-05-29T08:11:15Z 2023-05-29T08:11:15Z 2020 Article 10.3390/electronics9020366 2-s2.0-85079878198 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079878198&doi=10.3390%2felectronics9020366&partnerID=40&md5=2cde1943dcc9f4e1a6cabaf51961f8f2 https://irepository.uniten.edu.my/handle/123456789/25583 9 2 366 All Open Access, Gold MDPI AG Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
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continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
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description The generation and integration of photovoltaic power plants (PVPPs) into the utility grid have increased dramatically over the past two decades. In this sense, and to ensure a high quality of the PVPPs generated power as well as a contribution on the power system security and stability, some of the new power quality requirements imposed by different grid codes and standards in order to regulate the installation of PVPPs and ensure the grid stability. This study aims to investigate the recent integration requirements including voltage sag, voltage flicker, harmonics, voltage unbalance, and frequency variation. Additionally, compliance controls and methods to fulfill these requirements are developed. In line with this, a large-scale three-phase grid-connected PVPP is designed. A modified inverter controller without the use of any extra device is designed to mitigate the sage incidence and achieve the low-voltage ride-through requirement. It can efficiently operate at normal conditions and once sag or faults are detected, it can change the mode of operation and inject a reactive current based on the sag depth. A dynamic voltage regulator and its controller are also designed to control the voltage flicker, fluctuation, and unbalance at the point of common coupling between the PVPP and the grid. The voltage and current harmonics are reduced below the specified limits using proper design and a RLC filter. The obtained results show that the proposed controller fulfilled the recent standard requirements in mitigating power quality (PQ) events. Thus, this study can increase the effort towards the development of smooth PVPP integration by optimizing the design, operation and control strategies towards high PQ and green electricity. � 2020 by the authors. Licensee MDPI, Basel, Switzerland.
author2 57004922700
author_facet 57004922700
Al-Shetwi A.Q.
Hannan M.A.
Jern K.P.
Alkahtani A.A.
Abas A.E.P.G.
format Article
author Al-Shetwi A.Q.
Hannan M.A.
Jern K.P.
Alkahtani A.A.
Abas A.E.P.G.
spellingShingle Al-Shetwi A.Q.
Hannan M.A.
Jern K.P.
Alkahtani A.A.
Abas A.E.P.G.
Power quality assessment of grid-connected PV system in compliance with the recent integration requirements
author_sort Al-Shetwi A.Q.
title Power quality assessment of grid-connected PV system in compliance with the recent integration requirements
title_short Power quality assessment of grid-connected PV system in compliance with the recent integration requirements
title_full Power quality assessment of grid-connected PV system in compliance with the recent integration requirements
title_fullStr Power quality assessment of grid-connected PV system in compliance with the recent integration requirements
title_full_unstemmed Power quality assessment of grid-connected PV system in compliance with the recent integration requirements
title_sort power quality assessment of grid-connected pv system in compliance with the recent integration requirements
publisher MDPI AG
publishDate 2023
_version_ 1806423426960719872